Josef Kaufmann scite author profile

Magnesium-to-phosphate (Mg/PO4) and water-to-cement (w/c) ratios are important 9 factors controlling hydration and properties of magnesium potassium phosphate (MKP) cements.This study investigated the influence of Mg/PO4 molar ratios (2.7, 4 and 8) and w/c (0.25 and 5) on cement hydration, compressive strength and volume stability. Low w/c ratio slowed down cement hydration at lower Mg/PO4 beyond 1 day, and prevented the precipitation of intermediate hydrates at higher Mg/PO4. At lower Mg/PO4 expansion and strength loss were observed with time due to the continuing hydration within the already hardened cement. Higher Mg/PO4 resulted in faster hydration, higher strength, and in the precipitation of traces of brucite, which had no significant influence on the long-term volume stability and strength. Therefore, moderate Mg/PO4 molar ratios between 4 and 8 depending on w/c ratio used are recommended for the production of MKP cements with robust performance.

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Rebound and orientation of fibers in wet sprayed concrete applications

Kaufmann

Frech

Schuetz

et al. 2013

Construction and Building Materials

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Josef Kaufmann

Experimental studies and thermodynamic modeling of the carbonation of Portland cement, metakaolin and limestone mortars

Analysis of cement-bonded materials by multi-cycle mercury intrusion and nitrogen sorption

Interaction of cement model systems with superplasticizers investigated by atomic force microscopy, zeta potential, and adsorption measurements

Relation between carbonation resistance, mix design and exposure of mortar and concrete

On the use of peak-force tapping atomic force microscopy for quantification of the local elastic modulus in hardened cement paste

Multi-method approach to study influence of superplasticizers on cement suspensions

Influence of magnesium-to-phosphate ratio and water-to-cement ratio on hydration and properties of magnesium potassium phosphate cements

Rebound and orientation of fibers in wet sprayed concrete applications

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